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  1. Karan S, Choudhury H, Chakra BK, Chatterjee TK
    Asian Pac J Cancer Prev, 2019 07 01;20(7):2181-2194.
    PMID: 31350983 DOI: 10.31557/APJCP.2019.20.7.2181
    Controlled release delivery system of chemotherapeutic agents at the site of colon endorses modern drug-entrapped
    delivery tools, which release the entrappedagents at a controlled rate for anextended period providing patient compliance
    and additional protection from the degradinggastric environment. Thus, the present study was aimed to develop
    and optimize a novel polymeric microsphere of 5-fluorouracil (5-FU) using natural gum katira to obtain an optimal
    therapeutic response at the colon. Due course of experimentation, in-vivo safety profile of the gum katira in an animal
    model was established. Modified solvent extraction/evaporation technique wasemployed to encapsulate 5-FU in the
    natural polymeric microsphere and was characterized using in-vitro studies to investigate particle size, morphology,
    encapsulation efficiency and release of the drug from developed formulation. Formulated and optimized polymeric
    microsphere of 5-FU using gum katira polymer own optimal physicochemical characteristics with a fine spherical particle
    with size ranged from 210.37±7.50 to 314.45±7.80 μm.Targeted microsphere exhibited good cytotoxicity and also has
    high drug entrapment efficiency, and satisfactory release pattern of the drug within a time frame of 12 h. Finally, we
    foresee that the optimized polymeric gum katiramicrosphere of 5-FU could be a promising micro-carrier for efficient
    colon drug targeting delivery tool with improved chemotherapeutic efficacy against colon cancer.
  2. Gorain B, Choudhury H, Tekade RK, Karan S, Jaisankar P, Pal TK
    Regul Toxicol Pharmacol, 2016 Dec;82:20-31.
    PMID: 27815174 DOI: 10.1016/j.yrtph.2016.10.020
    Poor aqueous solubility and unfavourable de-esterification of olmesartan medoxomil (a selective angiotensin II receptor blocker), results in low oral bioavailability of less than 26%. Improvement of oral bioavailability with prolonged pharmacodynamics activity of olmesartan in Wistar rats had been approached by nanoemulsification strategy in our previous article [Colloid Surface B, 115, 2014: 286]. In continuation to that work, we herewith report the biodistribution behaviour and 28-day repeated dose sub-chronic toxicity of olmesartan medoxomil nanoemulsion in Wistar rats following oral administration. The levels of olmesartan in collected biological samples were estimated using our validated LC-MS/MS technique. Our biodistribution study showed significantly higher brain concentrations of olmesartan (0.290 ± 0.089 μg/mL, 0.333 ± 0.071 μg/mL and 0.217 ± 0.062 μg/mL at 0.5, 2.0 and 8.0 h post dosing, respectively) when administered orally as nanoemulsion formulation as compared to the aqueous suspension. In addition, the olmesartan nanoemulsion was found to be safe and non-toxic, as it neither produced any lethality nor remarkable haematological, biochemical and structural adverse effects as observed during the 28-days sub-chronic toxicity studies in experimental Wistar rats. It is herewith envisaged that the developed nanoemulsion formulation approach for the delivery of olmesartan medoxomil via oral route can further be explored in memory dysfunction and brain ischemia, for better brain penetration and improved clinical application in stroke patients.
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